A guide to buying

solar water heating

Contents
Thinking of going solar? p1

Costs and benefits p2

Reduced energy bills
Installation costs
Environmental benefits

Is it right for you? p3

Hot water use
House design

How does it work? p4

Choosing a system p5
Packaged solar water heating systems
System size
‘Open loop’ and ‘closed loop’ systems
Collector panels
Circulation system
Hot water tanks
Controllers

Frost protection p13

Choosing an installer p14

Installation and building consents

Use and maintenance p15

Maintenance requirements

Any problems? p16

So how do you know your system is working properly?

Top tips to use less hot water p17

Thinking of going solar?
A properly specified and installed solar water heating system
can slash your hot water bill.

A solar water heating system can provide at least 50%* of

your annual hot water needs. It can be effective nearly anywhere
in New Zealand, even in less sunny areas. Over time, it can pay
for itself through lower power bills. By using solar water heating,
you’ll also be helping to reduce New Zealand’s greenhouse
gas emissions.

The Energy Efficiency and Conservation Authority (EECA) has

produced this free guide, we explain what to look for, and
how to use the system to get the best return in ‘free’ hot water.
* Savings depend on local conditions and proper specification and installation of
the solar water heating system.

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 Costs and benefits
Reduced energy bills In general, it’s more expensive to install
In summer, it may be possible to solar water heating in an existing house
heat all the water you need with solar than in a new house. This is because,
energy. In winter, or on cold cloudy in an existing house, you sometimes
days, solar water heating will meet part need to:
of your hot water needs – you’ll also
• add pipes in parts of the house
need some supplementary heating
that are hard to access
from your booster system.
• add structural framing in the roof
The exact amount you save from solar so it can carry the extra weight
water heating will depend on a wide of the solar water heating collectors
range of factors including how much and tank – if you choose to have
hot water you use, the solar water the tank on your roof.
heating system you install, and the
You may be eligible for a $1,000 grant.
quality of the installation.
To check whether you qualify, and how
It’s been estimated that, for an average to apply, see www.energywise.govt.nz
household, an effective system will:
EECA publishes the indicative
• provide at least 50 percent* of performance data for all solar water
annual hot water needs heating systems qualifying for the
• cut about 2200kWh from annual $1,000 grant. This is a useful way to
electricity use compare the performance of systems
• provide savings of $350 – $450 eligible for a grant.
a year (depending on the cost of www.energywise.govt.nz/solar-systems
your electricity or gas supply).
Environmental benefits
Installation costs If you install solar water heating,
Because each installation is different, you’re helping to reduce New Zealand’s
the installation cost of a solar water dependence on non-renewable energy
heating system can vary widely. For sources and you’re helping to cut
systems connected to an existing hot greenhouse gas emissions.
water tank, the average cost is about Every residential solar water heating
$5,500. For systems that also include system installed is estimated to
a new tank, the average cost is around save, on average, about 1.4 tonnes
$7,300. Prices could be higher or lower of carbon dioxide emissions a year.
depending on a range of factors, such
as the size of the system.

* Savings depend on local conditions and proper specification and installation of the solar water heating system.

2
Is it right for you?
Hot water use
Solar water heating is generally more economically viable in larger
households that use a lot of hot water. The savings won’t be as
noticeable if you don’t use much hot water.

House design
The design and location of your house are also important – they will
determine how easy it is to have solar water heating installed, and
how well the solar water heating system performs.

The solar collector should face true north or as close to true north
as possible, so you’ll need a section of roof that:

• faces true north or close to true north (in New Zealand true north
is about 20o west of magnetic north, which is what you see on
a compass). There is a 20% loss in annual performance for SWH
systems whose collectors face directly East or West.
• has good year round exposure to the sun (ideally with no shading
– and remember shading is likely to be greater in winter)
• is large enough to accommodate the collectors (roughly 1m2 per
person in the house)
• is preferably located near the hot water tank, and the tank is
located near where you use the hot water (e.g. bathroom).

3
 How does it work?
A solar water heating system works by absorbing energy from the sun
in collector panels located on your roof. This energy is then transferred
to water stored in a hot water tank.

At times when there isn’t enough solar energy to heat the water,
‘booster’ heating is used to keep the water in the tank at the right
temperature. The booster heating can be provided by electricity, gas
or a wetback.

The main components of a solar water heating system include

solar collectors, the hot water tank, and equipment such as a pump
and controller.

4
Choosing a system
Packaged solar water heating systems
There are a number of different kinds of solar water heating systems
to choose from, and within those systems there are further options
for each component.

To make things easy for you, suppliers typically offer packaged solar
water heating systems, so that some decisions about the system are
already made for you.

A packaged solar water heating system has been tested as a whole

to ensure all components are well matched and work well together.

EECA publishes the indicative energy performance for all solar

water heating systems qualifying for a $1,000 grant. This is a
useful way to compare the performance of systems eligible for a
grant. www.energywise.govt.nz/solar-systems

System size
Solar water heating systems are sized according to demand for hot
water. The more hot water you use, the larger the storage tank and
collector panel area should be. The number of people living in your
house is a good guide for how large the system should be.

These numbers below are a rough guide only. The actual tank size
and collector area you need will depend on your individual household
situation, the system you choose, and the way it is configured.

Number Cylinder size Collector panel

Evacuated tubes
of occupants (litres) area (m2)
3 or fewer people Up to 200 1.5 to 3.5 10 to 20
4-5 people 200-350 2.5 to 6 15 to 40
6 or more people 300 or more 4 upward 40 upward

In general there should be no more than 1m2 of collector per 50 litres

of water and no less than 1m2 of collector per 100 litres of water.

We recommend you discuss this with your supplier and installer

to ensure you get a system that will meet your requirements.

5
 ‘Open loop’ and ‘closed loop’ systems
In some solar water heating systems, There’s no mixing between the heat
water is circulated through the collector transfer fluid and the water stored
panels and heated directly before being in your tank. This type of system
returned to the hot water tank. These is known as a ‘closed loop’ system.
are known as ‘open loop’ systems.

Diagram of a closed loop system

Diagram of an open loop system
Advantages of closed loop systems:
Advantages of open loop systems: • Suitable for all locations
• Less cost than closed loop systems • No additional frost protection
• Generally better performance as required if glycol is used
water is heated directly by collector • If well maintained will perform well,
long into the future
Disadvantages of open loop systems:
• Not suitable for low water quality areas Disadvantages of closed loop systems:
• Performance may reduce over time • Glycol needs replacing periodically
if impurities build up on pipes • Slightly more expensive than open
• Needs frost protection measures loop systems

In other systems, a heat transfer Discuss with your supplier and

fluid (usually a mixture of water and installer whether either option is
glycol) circulates through the collector more suited to your requirements.
panels. This fluid then passes through
a heat exchanger in your hot water
tank, heating up the water in your tank.

6
Collector panels
There are two main types of collector
panels for solar water heating systems:
flat plate panels, and evacuated tube
panels:

• A flat plate panel looks similar to

a skylight. It absorbs sunlight and
transfers the heat into the water (or
heat transfer fluid) flowing through
the collector panel. A typical house
would have roughly 1m2 of collector
per person in the house.
• An evacuated tube panel is
Diagram of a flat panel collector
made up of a series of glass tubes
(between 1.5m and 2m long) sloping
lengthwise up and down the roof.
A typical house may have 15 to
40 tubes installed on it with 2.5m2
– 7m2 of total absorber area.

There are many types of flate plate

and evacuated tube collectors with
different absorber coatings, methods
of manufacture and internal design,
some with reflectors and some without.

The main thing to consider is the total

solar water heating system performance Diagram of an evacuated tube
and how well the system components
are sized in relation to each other and Typically solar collectors are positioned
to your water use. This is far more on your roof. However an in-roof
important than whether it is a flate installation option is also available.
plate collector or an evacuated tube. In-roof solar collectors are put into the
roof in a similar way to a skylight. (It is
For independent performance also possible to mount solar collectors
information on solar water at ground level.)
heating systems that are eligible
for funding under the EECA In New Zealand’s temperate climate,
solar water heating programme both types of panel are about as
visit www.energywise.govt.nz efficient as each other.

7
 Circulation system

Natural circulation by thermosiphon

has the advantage that it is not
dependent on electricity, whereas
Diagram of using a pump system
a pump system is.

Water or heat transfer fluid can be However, the disadvantage of a

circulated around the solar water heating thermosiphon system can be that,
system using a pump (an ‘active’ when the hot water storage tank is
system), or it can be circulated naturally on the roof, there can be greater heat
(a ‘thermosiphon’ or ‘passive’ system). losses because of exposure to the
outside temperature.
In a thermosiphon system the hot
water tank has to be located above With a pump system, the hot water
the collector panels, usually on the roof tank can be located at a level below
but sometimes inside the roof space. the collectors. This can be helpful if
Cold water or heat transfer fluid moves you want to use an existing hot water
down from the tank into the collector tank, or if you would rather not see the
panels. Once it is heated by the sun, tank on the roof. Controllers must be
it rises naturally back up into the tank. used to turn the pump on when there
is enough solar energy available and
off when there is not.

The advantage of the pump system

is that the tank can be stored in more
convenient locations, where heat
losses can be reduced, and you can
retrofit the solar water heating system
to your existing tank.

8
Hot water tanks
The hot water tank can be part of the
system on the roof, or it can be set
up separately.

You can use a conventional hot

water tank or a specialist solar water
heating tank. The key difference
is that specialist tanks are larger,
store more water, have thermostat
connections and are specially designed
to maximise the use of solar energy.
If you choose a specialist tank the
system is likely to perform better.
However, it is possible to achieve Diagram of a conventional hot water tank
reasonable performance with a
conventional tank, through effective
system design.

If you are considering retrofitting a solar

water heating system to your existing
conventional tank, here are some
things you should consider;

• It is not recommended that solar

water heating systems are retrofited
to a tank that is less than A grade as
the heat losses from the tank reduce
the performance of the system. If
Diagram of a specialist solar water heating tank
you do retrofit to any tank, install a
cylinder wrap to reduce heat losses. • If you are planning to retrofit to an
• Ensure that the solar water heating existing mains pressure, enamel tank
system you choose includes timer then you should consult with the tank
control of the booster heating so the manufacturer, as solar water heating
solar panels are given a chance to heat systems can produce very hot water
the water before the booster does. in the tank in summer and this may
affect the life of the tank.

9
 Conventional hot water tanks in If you are planning to get a system
houses are usually 180 litres or less. that includes a tank, check the
This storage capacity is generally quotes carefully – a cheap price may
too small for a solar water heater to mean the tank and other components
achieve optimal performance for a aren’t included or that sub-standard,
household of three or more people. or under-sized tanks are being offered.
Ensure the tank has been tested and
meets the government Minimum
Energy Performance requirements. If
in doubt, ask the supplier to confirm.

If an enamel lined tank is specified as

part of the solar water heating system
ensure that the tank manufacturer
warrants the tank for use with solar
water heating systems.

10
Controllers

A controller is required on pumped systems to turn the pump on when

sufficient heat is available at the collector to heat the water, and off
when there is not.

An additional function of the controller is to control the use of

supplementary or ‘booster’ gas or electric heating systems.

In electric supplementary heating sytems, there are two basic elements

in tank setups that need to be controlled in different ways, these are:

1. Element located halfway up the tank

The element is usually controlled so that if the temperature in the
top half of the tank drops below 60˚C then the element turns on until
60˚C is met.

This type of system has the advantages of:

• Simple control
• Hot water always available
• Cold water always available for solar to heat
• Generally better performance.

Sometimes an additional element is located in the bottom of the tank

that is manually controlled. This can be turned on when more hot water
is needed, such as if guests come to stay and the sun hasn’t been
shining. It is important that this manual switch automatically resets itself.

11
 2. Element at the bottom of the tank
Bottom element tanks used in solar water heating systems occur
mainly when solar water heating systems are retrofitted to existing
hot water tanks. This is where it is important to control the element
so that the solar water heating system has the maximum opportunity
to heat the cold water before the element turns on. This is balanced
with the need for hot water to be available. Hence a timer control
on the booster element is the ideal control in this situation.

If you use hot water in the morning the element could be turned
on between 4am and 7am to ensure plenty of hot water for showers
before work. The solar water heating system should heat the water
during the day, unless there is not enough sun and the element
could be turned on at 4pm till 6pm in the evening if the tank was
not up to temperature for evening showers.

Without this type of control on bottom element tanks the energy

saving provided by the solar water heating system is very poor.

It’s also worth reviewing your electricity tariff when you

install a solar water heating system to ensure you are paying
the best rate for water heating.

A well set up controller will ensure that you get the maximum
performance from your solar water heating system. Make
sure you talk to the installer or supplier about the type of
controller you need.

The NZ Building Code sets out the minimum requirements

for controlling the temperature of the water in your hot water
tank to protect you from Legionella bacteria. Ensure the
system you install meets these requirements. For additional
information on these requirements visit the Department of
Building and Housing website and download the acceptable
solution for solar water heating systems G12/AS2.

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Frost protection
In frost-prone areas, ensure that the Frost tubes could also be considered
solar water heating system you buy on some systems. These enable the
has frost protection. Otherwise, the water in the collector panels to freeze
water or heat transfer fluid could freeze without causing damage. The tubes
in the collector panels. absorb any pressure build-up created
by the water expanding or freezing.
The water/glycol mixture used in
most closed loop systems has anti- Again, talk to your installer or supplier
freeze properties, so freezing won’t be about what method is appropriate for
a problem. the system you choose.

In open loop systems with a pump,

temperature sensors can turn the pump
on to run water through the system
before the collector panels freeze. This
method of frost protection effectively
takes hot water from the tank to heat
the collector panel, so it doesn’t freeze.
In severe frost locations this type of
frost protection will reduce the energy
savings provided by the system,
and costly damage can occur to the
collector should there be a power
outage during a heavy frost.

Drain back systems, where the fluid is

completely drained from collector into a
drain back tank are an excellent option
to protect the collector from freeze
damage and are used extensively in
Europe where freezing is common. Not
all collectors are suitable to be used in
a drain back system as the fluid may
not be able to completely drain.

Some open loop thermosiphon

systems have frost valves that stop
the water from flowing through the
collector panels when the temperature
is close to freezing.

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 Choosing an installer
Look for an installer who has completed a course in solar water heating installation.
Note that, to qualify for an ENERGYWISETM grant for solar water heating, your
installer must be registered on EECA’s website.

As part of their quote, installers should Installation and building consents

include an assessment of your house, It is critical that the installer and the
roof orientation, and any structural installation quality meet the requirements
support requirements for the tank. Ask of the NZ Building Code.
them about their specific experience
Regardless of which type of system
in installing systems in circumstances
you choose, the installation will
similar to yours, for example if you have
need to comply with the NZ Building
a two-storey house, or if you live close
Code. You will need a building consent
to the sea or in a very exposed place.
from your local Building Consent
If you choose to have a system with a Authority (normally, your local council).
tank on the roof, the installer will need
It is the homeowner’s legal responsibility
to do an assessment of any structural
to make sure the required building
requirements to ensure the weight of
consent is obtained, however the
the tank is supported. If you have a
installer should assist you with this.
system with just collector panels on the
roof, this is not likely to be a concern. Some councils offer reduced consent
fees or other incentives to encourage
Obtain quotes and information from
solar water heating and other
several suppliers or installers to
renewable technologies. Check with
ensure you get the best system at a
your local council.
competitive price.

14
Use and maintenance
Maintenance requirements
A solar water heating system requires little maintenance, but
there are some things you can do to keep it running at its best:

1. Manufacturers’ instructions should be followed for any

maintenance issues or requirements over the life of the system.

2. Collectors should be washed if they get dirty.

3. Check collector panels for shading and debris – nearby trees

may have grown unnoticed.

4. Collectors that are out of sight should occasionally be visually

inspected. Check for leaks, which may occur in the case, glass
or pipes. Condensation on the glass or wet insulation indicates
the system may be leaking.

5. Talk to your supplier or installer if you see any discolouration

or corrosion.

6. Although uncommon, broken glass or damaged glazing should

be replaced immediately as water coming in will rapidly
deteriorate the absorber’s surface and insulation.

7. Solar hot water tanks should be maintained in a similar manner

to normal electric hot water tanks. Flush the hot and cold relief
valves on the hot water tank every six months. Glass-lined
water tanks should have their anode changed every five years
(or more frequently in hard water areas).

8. Frost protection methods that use frost plugs (which are

increasingly rare) sometimes need resetting in freezing conditions.
If the system uses glycol or a water-glycol mixture, this will
need replacing periodically. See your manufacturer’s instructions
for details.

Make sure your supplier or installer gives clear, detailed

operating instructions when your system is installed.

15
 Any problems?
As long as the solar water heating system has been specified
and installed properly, it should perform well. If not, go back to
your installer and ask for the system to be fixed. After the supplier’s
warranty has expired, you are still covered by the Consumer
Guarantees Act for both manufacturing defects and lack of skill
by the installer.

So how do you know your system is working properly?

Check your energy bill, but this is only a rough indicator as to
how well the system is performing as energy bills may vary for
a number of reasons such as the seasons, occupancy, new
appliances, etc.

Some controllers are capable of detecting faults and reporting

them on the controller display screen. If your controller is tucked
away in a cupboard you may also want an audible alarm to alert
you to any problem detected.

Some controllers available can also measure and display the

energy supplied by the solar water heating system so you can
check the amount of energy the solar water heating system is
saving. Insist on this type of controller as they should not cost
anymore than a standard controller but let you know just how
well your system is performing.

16
Top tips to use less hot water
Making savings on hot water can have a real impact on your
household costs. Try out some of these tips so you can reduce
how much you spend on hot water:

• Check your hot water temperature at the tap. It should be at

55°C. An extra 10 degrees could cost you between $25 and
$50 extra a year
• Rinse dishes with cold water rather than rinsing them under
the hot tap
• Stop the drips. Fix any dripping hot taps by replacing the
washer or fitting
• Wrap the heat in. If your electric hot water cylinder and pipes
feel warm to the touch, they are losing heat. Insulate them by
wrapping – you can get cylinder wraps from hardware stores.
You can't wrap gas hot water cylinders
• Ease the pressure. Around 80% of your hot water gets used in
showers. Install an energy efficient shower head and get a good
shower without wasting water. This could save you up to $500
a year if you use a lot of hot water
• Shower rather than bath. Take a shorter shower. If a family of
four each spent a minute less in the shower they’d save around
$100 a year
• Check your tariff option with your energy retailer. Make sure
your tariff is best suited to your needs.

17
 www.energywise.govt.nz

Energy Efficiency and Conservation Authority

PO Box 388, Wellington
Email: solarfinance@eeca.govt.nz
June 2009